JPH08178400A - Controller for air conditioning equipment - Google Patents
Controller for air conditioning equipmentInfo
- Publication number
- JPH08178400A JPH08178400A JP6327652A JP32765294A JPH08178400A JP H08178400 A JPH08178400 A JP H08178400A JP 6327652 A JP6327652 A JP 6327652A JP 32765294 A JP32765294 A JP 32765294A JP H08178400 A JPH08178400 A JP H08178400A
- Authority
- JP
- Japan
- Prior art keywords
- temperature
- air
- determining means
- determining
- frequency
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Air Conditioning Control Device (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、室内の人の快適性を損
なうことなく省エネ性の向上を図る空気調和機の制御装
置に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a control device for an air conditioner which improves energy saving without impairing the comfort of a person in a room.
【0002】[0002]
【従来の技術】従来のこの種の空気調和機の制御装置に
ついて説明する。近年、室内温度を下げずに、気流が使
用者に当たるように、また、風速を上げるように風向や
風量を制御し、使用者に当たる風速の増加で冷涼感を補
い、快適性を損なうことなく省エネ性の向上を図るもの
として、例えば、特開平6−18072号公報の実施例
記載の構成が知られている。以下にその構成を説明す
る。2. Description of the Related Art A conventional control device for an air conditioner of this type will be described. In recent years, controlling the wind direction and volume so that the airflow strikes the user and raises the wind speed without lowering the room temperature, the cooling feeling is compensated by the increase in the wind velocity hitting the user, and energy is saved without impairing comfort. In order to improve the property, for example, the configuration described in the embodiment of JP-A-6-18072 is known. The configuration will be described below.
【0003】外気温がある閾値を超えた時、または、2
4時間タイマを有しある指定された時間の時、室内の設
定温度を上げ室内温度が上がると、そのままでは快適感
が損なわれるため、例えば、ヤグロー等によって提案さ
れた気温、湿度、気流を考慮し、これらが変化したとき
の体感温度等に基づいて、吹き出し気流の風速を速めて
室内温度が上がった分を補う、すなわち、室内の設定温
度を上げるとともに在室者に当たる風速を増加させるこ
とによって、体感的には室内温度よりも低い温度として
空気調和を行い、省エネ性を図る、というものである。When the outside temperature exceeds a certain threshold, or 2
With a 4-hour timer, if the room temperature is raised and the room temperature rises at a specified time, comfort will be lost as it is. For example, consider the temperature, humidity, and airflow proposed by Yaguro et al. However, based on the sensible temperature when these change, etc., the wind speed of the blown airflow is accelerated to compensate for the increase in the room temperature, that is, by increasing the set temperature in the room and increasing the wind speed hitting the occupant. As a sensation, air conditioning is performed at a temperature lower than the indoor temperature to save energy.
【0004】[0004]
【発明が解決しようとする課題】しかしながら上記のよ
うな構成では、第1の分野では、外気温や24時間タイ
マによりこの制御を行うかどうかを決定しているため、
外気温がある閾値以下のとき、または、ある指定された
時間以外の時には、省エネ性が図れない、という課題を
有していた。However, in the above-mentioned configuration, in the first field, whether or not this control is performed is determined by the outside air temperature and the 24-hour timer.
There is a problem that energy saving cannot be achieved when the outside air temperature is below a certain threshold value or when it is outside a certain designated time.
【0005】また、第2の分野として、例えば、負荷の
大きな部屋では、空気調和機の吹き出す気流の温度、す
なわち吹き出し温度が非常に低くなるため、風向制御の
目標とする方向においては非常に低い温度領域となる
等、室内の温度分布が大きくなる。すなわち、制御の対
象としている温度が室内温度であるため、吹き出し温度
に関わらず、単に室内温度を上げたり圧縮機の回転数を
下げても風向を使用者に向けたり風速を上げると、吹き
出し温度によっては使用者は冷風感を感じ非常に不快に
なり快適性を損なってしまう、という課題を有してい
た。In the second field, for example, in a room with a large load, the temperature of the airflow blown out by the air conditioner, that is, the blowout temperature, becomes very low, so it is very low in the target direction of the wind direction control. The temperature distribution in the room becomes large, such as in the temperature region. That is, since the temperature to be controlled is the indoor temperature, regardless of the blowing temperature, if the wind direction is aimed at the user or the wind speed is raised even if the indoor temperature is simply increased or the compressor rotation speed is decreased, the blowing temperature Depending on the situation, the user feels a cold sensation and becomes very uncomfortable, which impairs comfort.
【0006】そこで本発明は、上記問題に鑑み、冷房運
転時は常に、低吹き出し温度に伴う快適感の損失を補う
ために高めの吹き出し温度を決定し、この吹き出し温度
に基づいて圧縮機の周波数を自動的に制御することによ
り、使用者に当たる風速の増加に対応した最適な吹き出
し温度による冷涼感を与え、快適性を維持するととも
に、風量増加と吹き出し温度上昇による省エネ性の向上
を図ることを目的とするものである。In view of the above problems, the present invention determines a high blowout temperature to compensate for the loss of comfort associated with a low blowout temperature, and determines the frequency of the compressor based on the blowout temperature during cooling operation. By automatically controlling the air flow, it is possible to provide the user with a cooling sensation by the optimum blowing temperature corresponding to the increase in wind speed hitting the user, maintain comfort, and improve energy saving by increasing the air volume and raising the blowing temperature. It is intended.
【0007】また、本発明は、冷房運転時は常に、低吹
き出し温度に伴う快適感の損失を補うために高めの吹き
出し温度を決定し、この吹き出し温度に基づいて外気温
をも考慮しながら圧縮機の周波数を自動的に制御するこ
とにより、室温が高い立ち下がり時等の不快感を緩和し
ながら、使用者に当たる風速の増加に対応した最適な吹
き出し温度による冷涼感を与えるとともに、風量増加と
吹き出し温度上昇による省エネ性の向上を図ることを目
的とするものである。Further, according to the present invention, at the time of the cooling operation, a high blowout temperature is always determined in order to compensate for the loss of comfort associated with the low blowout temperature, and the compression is performed while considering the outside air temperature based on the blowout temperature. By automatically controlling the frequency of the machine, while mitigating discomfort such as when the room temperature is high and falling, while giving a cool sensation by the optimal blowing temperature corresponding to the increase in wind speed hitting the user, and increasing the air volume The purpose is to improve energy efficiency by increasing the temperature of the blowout air.
【0008】[0008]
【課題を解決するための手段】上記目的を達成するため
に本発明は、冷房運転および暖房運転等の運転モードを
記憶する運転モード記憶手段と、前記運転モード記憶手
段からの出力値が冷房運転時、気流が人に当たるように
風向を決定する風向決定手段と、風量を所定範囲内で決
定する風量決定手段と、前記風量決定手段からの出力値
である風量に基づいて吹き出し温度を決定する吹出温度
決定手段と、室内の設定温度を決定する室内温度決定手
段と、空気調和機が制御する吹き出し温度を検出する吹
出温度検出手段と、室内の温度を検出する室内温度検出
手段と、前記吹出温度決定手段、室内温度決定手段、吹
出温度検出手段、および室内温度検出手段からの出力値
である設定吹き出し温度、設定室内温度、吹き出し温
度、および室内温度に基づいて決定された吹き出し温度
になるよう圧縮機の周波数を決定する周波数決定手段と
を備えるものである。In order to achieve the above object, the present invention provides an operation mode storing means for storing operation modes such as cooling operation and heating operation, and an output value from the operation mode storing means for cooling operation. At this time, the wind direction determining means for determining the wind direction so that the airflow hits a person, the air volume determining means for determining the air volume within a predetermined range, and the blowout for determining the blowing temperature based on the air volume which is the output value from the air volume determining means. Temperature determining means, indoor temperature determining means for determining the set temperature in the room, outlet temperature detecting means for detecting the outlet temperature controlled by the air conditioner, indoor temperature detecting means for detecting the indoor temperature, and the outlet temperature Set outlet temperature, set indoor temperature, outlet temperature, and indoor temperature that are output values from the determining unit, the indoor temperature determining unit, the outlet temperature detecting unit, and the indoor temperature detecting unit. In which and a frequency determining means for determining a frequency of the compressor so as to be the determined outlet temperature based.
【0009】また、本発明は、外気温を検出する外気温
検出手段と、吹出温度決定手段、室内温度決定手段、吹
出温度検出手段、室内温度検出手段、および外気温検出
手段からの出力値である設定吹き出し温度、設定室内温
度、吹き出し温度、室内温度、および外気温に基づいて
決定された吹き出し温度になるよう圧縮機の周波数を決
定する第2周波数決定手段とを備えるものである。According to the present invention, the outside air temperature detecting means for detecting the outside air temperature, and the output values from the outlet temperature determining means, the indoor temperature determining means, the outlet temperature detecting means, the indoor temperature detecting means, and the outside air temperature detecting means. A second frequency determining means for determining the frequency of the compressor so that the outlet temperature is determined based on a set outlet temperature, a set indoor temperature, an outlet temperature, an indoor temperature, and an outside air temperature.
【0010】[0010]
【作用】そこで本発明は、上記構成により、冷房運転時
使用者の快適感を考慮しつつ、気流が人に当たるように
風向を、また、所定範囲内で風量を制御するとともに、
この風量に基づいた吹き出し温度、すなわち、低吹き出
し温度に伴う快適感の損失を補うために高めの吹き出し
温度を決定し、この決定された吹き出し温度や室内温度
等に基づいて圧縮機の周波数を自動的に制御することに
より、使用者に当たる風速の増加に対応した最適な吹き
出し温度による冷涼感を与えることができる。With the above arrangement, the present invention controls the wind direction so that the airflow hits a person and the air volume within a predetermined range while considering the comfort of the user during cooling operation.
The blowing temperature based on this air volume, that is, a higher blowing temperature is determined to compensate for the loss of comfort associated with the low blowing temperature, and the compressor frequency is automatically adjusted based on the determined blowing temperature and room temperature. By controlling the distance, it is possible to give a feeling of coolness by the optimum blowing temperature corresponding to the increase of the wind speed hitting the user.
【0011】また、本発明は、冷房運転時、部屋の負荷
に応じて周波数の制御を行い立ち下がり時の時間を短縮
する、すなわち、室内温度の高い時には外気温に応じた
周波数を、またそれ以外の時は、低吹き出し温度に伴う
快適感の損失を補うために高めの吹き出し温度を決定
し、この決定された吹き出し温度や室内温度等に基づい
て圧縮機の周波数を自動的に制御することにより、室内
温度の高い立ち下がり時等の不快感を緩和しながら、使
用者に当たる風速の増加に対応した最適な吹き出し温度
による冷涼感を与えることができる。Further, according to the present invention, during cooling operation, the frequency is controlled according to the load of the room to shorten the time at the fall, that is, when the room temperature is high, the frequency according to the outside air temperature is also changed. In other cases, a higher blowing temperature is determined to compensate for the loss of comfort associated with a low blowing temperature, and the compressor frequency is automatically controlled based on the determined blowing temperature and room temperature. As a result, it is possible to provide a feeling of coolness due to the optimum blowing temperature corresponding to an increase in the wind speed hitting the user, while alleviating discomfort when the indoor temperature is high and falling.
【0012】[0012]
【実施例】以下、本発明の一実施例について図面を参照
して説明する。図1は本発明の一実施例における空気調
和機の制御装置の概略ブロック図である。図1におい
て、11は運転モードを検出する運転モード記憶手段、
111は冷房運転および暖房運転等の運転モード記憶信
号、12は風向決定手段、121は風向信号、13は風
量決定手段、131は風量信号、14は吹出温度決定手
段、141は設定吹き出し温度信号、15は室内温度決
定手段、151は設定室内温度信号、16は吹出温度検
出手段、161は吹き出し温度信号、17は室内温度検
出手段、171は室内温度信号、18は周波数決定手
段、181は周波数信号、19は空気調和機、191は
空気調和機が運転する運転モード信号である。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic block diagram of a control device for an air conditioner according to an embodiment of the present invention. In FIG. 1, 11 is an operation mode storage means for detecting an operation mode,
111 is an operation mode storage signal for cooling operation and heating operation, 12 is a wind direction determining means, 121 is a wind direction signal, 13 is an air volume determining means, 131 is an air volume signal, 14 is an outlet temperature determining means, 141 is a set outlet temperature signal, Reference numeral 15 is an indoor temperature determining means, 151 is a set indoor temperature signal, 16 is an outlet temperature detecting means, 161 is an outlet temperature signal, 17 is an indoor temperature detecting means, 171 is an indoor temperature signal, 18 is a frequency determining means, and 181 is a frequency signal. , 19 are air conditioners, and 191 is an operation mode signal for operating the air conditioner.
【0013】以上のような構成において、以下その動作
について説明する。運転モード記憶手段11では、空気
調和機19が運転する冷房運転、暖房運転等の運転モー
ドを空気調和機19からの運転モード信号191として
記憶し、この運転モード記憶信号111を風向決定手段
12に、運転モード記憶信号112を風量決定手段13
に、運転モード記憶信号113を室内温度決定手段15
に出力する。The operation of the above arrangement will be described below. The operation mode storage means 11 stores an operation mode such as a cooling operation and a heating operation in which the air conditioner 19 operates as an operation mode signal 191 from the air conditioner 19, and the operation mode storage signal 111 is stored in the wind direction determining means 12. The operation mode storage signal 112 is set to the air volume determination means 13
Then, the operation mode storage signal 113 is sent to the indoor temperature determining means 15
Output to.
【0014】風向決定手段12では、運転モード記憶手
段11からの出力値である運転モード記憶信号111が
冷房運転の時、風向を人に当たるような方向、例えば、
下向きX゜と決定し、風向信号121として空気調和機
19に出力する。In the wind direction determining means 12, when the operation mode storage signal 111, which is the output value from the operation mode storage means 11, is in the cooling operation, the direction in which the wind direction hits a person, for example,
The downward X ° is determined, and the wind direction signal 121 is output to the air conditioner 19.
【0015】風量決定手段13では、運転モード記憶手
段11からの出力値である運転モード記憶信号112が
冷房運転時、予め実験等により決定された使用者が快適
な範囲での最大風量、例えば、8.0(m3/min)
と決定し、風量信号131として空気調和機19に、風
量信号132として吹出温度決定手段14に出力する。In the air volume determining means 13, the operation mode storing signal 112 which is the output value from the operation mode storing means 11 is the maximum air volume in a comfortable range for the user, which is determined in advance by experiments during the cooling operation, for example, 8.0 (m 3 / min)
Is output to the air conditioner 19 as the air volume signal 131, and is output to the outlet temperature determining means 14 as the air volume signal 132.
【0016】吹出温度決定手段14では、風量決定手段
13からの出力値である風量信号132に基づいて、低
吹き出し温度に伴う快適感の損失を補うための高めの吹
き出し温度を決定し、設定吹出温度信号141を周波数
決定手段18に出力する。The blow-out temperature determining means 14 determines a high blow-out temperature for compensating for the loss of comfort associated with the low blow-out temperature based on the air flow rate signal 132 which is the output value from the air-flow rate determining means 13, and sets the set blow-out temperature. The temperature signal 141 is output to the frequency determining means 18.
【0017】なお、これ以外にも、配管温度等のよう
に、吹き出し温度を推測できるものであれば、その手段
は限定されない。Other than this, the means is not limited as long as the blowing temperature can be estimated, such as the pipe temperature.
【0018】室内温度決定手段15では、例えば、運転
モード記憶信号11からの出力値である運転モード記憶
信号113が冷房運転時、設定室内温度(Taset)
を例えば一般的に快適とされている27(℃)と決定
し、設定室内温度信号151として周波数決定手段18
に出力する。In the room temperature determining means 15, for example, when the operation mode storage signal 113, which is the output value from the operation mode storage signal 11, is set in the cooling operation, the set room temperature (Taset) is set.
Is determined to be, for example, 27 (° C.), which is generally considered comfortable, and the frequency determining means 18 is used as the set room temperature signal 151.
Output to.
【0019】なお、これ以外にも、室内温度を推測でき
るものであれば、例えば、吸い込み温度を用いて、設定
吸い込み温度(Tsucset)を29(℃)と決定す
る、また、室内の平均温度を算出する手段を備えていれ
ば、室内平均温度により設定室内温度を決定する等、そ
の手段は限定されない。In addition to this, if the indoor temperature can be estimated, for example, the suction temperature is used to determine the set suction temperature (Tsucset) as 29 (° C.), and the average temperature in the room is determined. The means for calculating the set room temperature based on the room average temperature is not limited as long as the means is provided.
【0020】吹出温度検出手段16では、空気調和機1
9が制御する吹き出し温度を、例えば、サーミスタ等の
吹き出し温度センサにより検出し、吹き出し温度信号1
61として周波数決定手段19に出力する。In the outlet temperature detecting means 16, the air conditioner 1
The blow-out temperature controlled by 9 is detected by a blow-out temperature sensor such as a thermistor, and blow-out temperature signal 1
It outputs to the frequency determination means 19 as 61.
【0021】なお、吹出温度決定手段14と同様に、こ
れ以外に、配管温度を検出する等のように、吹き出し温
度を推測できるものであれば、その手段は限定されな
い。As with the blowout temperature determining means 14, other than this, the means is not limited as long as the blowout temperature can be estimated such as by detecting the pipe temperature.
【0022】室内温度検出手段17では、例えば、サー
ミスタ等の室内温度検出センサにより室内温度(Ta)
を検出し、室内温度信号171として周波数決定手段1
8に出力する。The room temperature detecting means 17 uses a room temperature detecting sensor such as a thermistor to measure the room temperature (Ta).
To determine the room temperature signal 171 and determine the frequency.
Output to 8.
【0023】なお、これ以外にも、室内温度決定手段1
5と同様に、室内温度を推測できるものであれば、その
手段は限定されない。In addition to this, the room temperature determining means 1
As in the case of 5, the means is not limited as long as the room temperature can be estimated.
【0024】周波数決定手段18では、吹出温度決定手
段14、室内温度決定手段15、吹出温度検出手段16
および室内温度検出手段17からの出力値である設定吹
き出し温度信号141、設定室内温度信号151、吹き
出し温度信号161および室内温度信号171に基づい
て決定された吹き出し温度になるように空気調和機を制
御する周波数を決定し、周波数信号181を空気調和機
19に出力する。In the frequency determining means 18, the outlet temperature determining means 14, the room temperature determining means 15, and the outlet temperature detecting means 16 are provided.
Also, the air conditioner is controlled so that the set outlet temperature signal 141, the set indoor temperature signal 151, the outlet temperature signal 161, and the outlet temperature determined based on the indoor temperature signal 171 which are the output values from the indoor temperature detecting means 17 are reached. The frequency to be set is determined, and the frequency signal 181 is output to the air conditioner 19.
【0025】空気調和機19では、風向決定手段12、
風量決定手段13および周波数決定手段18からの出力
値である風向信号121、風量信号131および周波数
信号181に基づいて、風向、風量および周波数の制御
を自動的に行う。In the air conditioner 19, the wind direction determining means 12,
Based on the wind direction signal 121, the air volume signal 131, and the frequency signal 181, which are the output values from the air volume determination unit 13 and the frequency determination unit 18, the wind direction, the air volume, and the frequency are automatically controlled.
【0026】次に、図2を用いて吹出温度決定手段14
の詳細について説明する。図2において、縦軸は吹き出
し温度(Tdis)、横軸は風量(q)である。また、
斜線内は、予め実験等により決定した、人に当たるよう
な風向にした時の、風量と吹き出し温度の快適な組み合
わせ領域(快適領域)を示している。Next, the blowing temperature determining means 14 will be described with reference to FIG.
Will be described in detail. In FIG. 2, the vertical axis represents the blowing temperature (Tdis) and the horizontal axis represents the air volume (q). Also,
The shaded area indicates a comfortable combination area (comfort area) of the air volume and the blowing temperature, which is determined in advance by experiments or the like when the wind direction hits a person.
【0027】以上のような構成において、以下その動作
について説明する。図2のような快適領域から風量決定
手段13からの出力値である風量信号132の風量時に
最も高い吹き出し温度をこの快適領域内から決定し、設
定吹き出し温度141として出力する。The operation of the above arrangement will be described below. When the air volume of the air volume signal 132, which is the output value from the air volume determination unit 13, is determined from the comfort area as shown in FIG. 2, the highest blowing temperature is determined from within the comfortable area and is output as the set blowing temperature 141.
【0028】例えば、風量決定手段13からの出力値で
ある風量信号132が8.0(m3/min)の時、こ
の時に快適領域内で最も高い吹き出し温度は21(℃)
なので、設定吹出温度信号141を21(℃)として周
波数決定手段19に出力する。For example, when the air volume signal 132, which is the output value from the air volume determining means 13, is 8.0 (m 3 / min), the highest blowing temperature in the comfortable area at this time is 21 (° C.).
Therefore, the set outlet temperature signal 141 is output to the frequency determining means 19 as 21 (° C.).
【0029】次に、周波数決定手段18における周波数
信号181の決定方法について表1、2を用いて詳細に
説明する。Next, a method of determining the frequency signal 181 by the frequency determining means 18 will be described in detail with reference to Tables 1 and 2.
【0030】表1において、室内温度決定手段15から
の出力値である設定室内温度信号151をTaset、
室内温度検出手段17からの出力値である室内温度信号
171をTa、また、表2において、吹出温度決定手段
14からの出力値である設定吹き出し温度信号141を
Tdisset、吹出温度検出手段16からの出力値で
ある吹き出し温度信号161をTdisとする。また、
前回に出力した周波数を記憶しておき、これを現行とす
る。In Table 1, the set room temperature signal 151, which is the output value from the room temperature determining means 15, is set to
The indoor temperature signal 171 which is the output value from the indoor temperature detecting means 17 is Ta, and in Table 2, the set outlet temperature signal 141 which is the output value from the outlet temperature determining means 14 is Tdisset, and the outlet temperature detecting means 16 outputs it. The outlet temperature signal 161 which is the output value is set to Tdis. Also,
The frequency output last time is stored, and this is made current.
【0031】以上のような構成において、以下その動作
について説明する。表1、2に示すように、周波数は、
設定室内温度より室内温度の方が大幅に高い時には速く
室内温度を下げるために高めの絶対値を予め決めてお
く。例えば、設定吹き出し温度(Taset)から吹き
出し温度(Ta)を引いた値が−3.5℃未満の時は1
20Hz、−3.5℃以上−3.0℃未満の時は80H
z、−3.0℃以上−2.0℃未満の時40Hzとす
る。The operation of the above arrangement will be described below. As shown in Tables 1 and 2, the frequency is
When the room temperature is significantly higher than the set room temperature, a higher absolute value is determined in advance in order to quickly lower the room temperature. For example, 1 when the value obtained by subtracting the blowing temperature (Ta) from the set blowing temperature (Taset) is less than -3.5 ° C.
80Hz at 20Hz and above -3.5 ° C and below -3.0 ° C
When z is −3.0 ° C. or higher and lower than −2.0 ° C., the frequency is 40 Hz.
【0032】また、室内温度がやや高めで、快適性を損
なう危険性がある時には、室内温度を快適性の損なわな
い範囲に下げるため、前回出力した周波数よりやや高く
する。例えば、設定吹き出し温度から吹き出し温度を引
いた値が−2.0℃以上−1.5℃未満の時は前回出力
した周波数(現行)+1Hzとする。When the indoor temperature is slightly high and there is a risk of impairing comfort, the indoor temperature is set slightly higher than the previously output frequency in order to lower it to a range that does not impair comfort. For example, when the value obtained by subtracting the blowing temperature from the set blowing temperature is not less than −2.0 ° C. and less than −1.5 ° C., the frequency (current) +1 Hz output last time is set.
【0033】また、室内温度が快適性を損なわない範囲
である時には、吹き出し温度の制御を正確に行うため
に、設定吹き出し温度と吹き出し温度の差から現行の周
波数に基づいて決定する。例えば、設定吹き出し温度
(Tdisset)から吹き出し温度(Tdis)を引
いた値が0.5℃以上の時は前回出力した周波数(現
行)−1Hz、−0.5℃以上+0.5℃未満の時は前
回出力した周波数(現行)と同じ、−0.5℃未満の時
は前回出力した周波数(現行)+1Hzとする。Further, when the indoor temperature is in a range where comfort is not impaired, in order to accurately control the blowing temperature, it is determined based on the current frequency from the difference between the set blowing temperature and the blowing temperature. For example, when the value obtained by subtracting the blowing temperature (Tdis) from the set blowing temperature (Tdisset) is 0.5 ° C. or higher, the previously output frequency (current) −1 Hz, −0.5 ° C. or higher and less than + 0.5 ° C. Is the same as the previously output frequency (current), and when it is less than -0.5 ° C, it is the previously output frequency (current) +1 Hz.
【0034】これにより、室内温度の高い立ち下がり時
等においてはその時間を短縮し、安定状態においては室
内温度が上がりすぎることなく、吹き出し温度の制御を
正確に制御することが可能となる。This makes it possible to shorten the time when the indoor temperature is high, such as a fall, and to accurately control the blowout temperature without raising the indoor temperature excessively in a stable state.
【0035】[0035]
【表1】 [Table 1]
【0036】[0036]
【表2】 [Table 2]
【0037】なお、上記実施例についての分類の個数
や、数値に関しては、これ以上に分類する等、その対象
に対する個数は限定されない。It should be noted that the number of classifications and numerical values in the above-described embodiment are not limited, such as further classification.
【0038】以上のように、上記第1の実施例によれ
ば、冷房運転時使用者の快適感を考慮しつつ、気流が人
に当たるように風向を、また、所定範囲内で風量を制御
するとともに、この風量に基づいた吹き出し温度を決定
し、この決定された吹き出し温度や室内温度等に基づい
て圧縮機の周波数を自動的に制御することができる。従
って、使用者に当たる風速の増加に対応した最適な吹き
出し温度による冷涼感を与えることができるとともに、
風量増加と吹き出し温度上昇による省エネ性の向上を図
ることができる。As described above, according to the first embodiment, the wind direction is controlled so that the airflow hits a person and the air volume is controlled within a predetermined range while considering the comfort of the user during the cooling operation. At the same time, the blow-out temperature can be determined based on the air flow rate, and the frequency of the compressor can be automatically controlled based on the decided blow-out temperature, the room temperature, and the like. Therefore, it is possible to give a cool sensation by the optimal blowing temperature corresponding to the increase in wind speed hitting the user, and
It is possible to improve the energy saving performance by increasing the air volume and the blowing temperature.
【0039】次に、図3を用いて本発明の第2の実施例
について図面を参照して説明する。ここで、第1の実施
例と同一のものについては、同一の符号を付して説明を
省略する。図3においては、21は外気温を検出する外
気温検出手段、211は外気温信号、22は第2周波数
決定手段、221は第2周波数信号である。Next, a second embodiment of the present invention will be described with reference to FIG. 3 with reference to FIG. Here, the same components as those in the first embodiment are designated by the same reference numerals and the description thereof will be omitted. In FIG. 3, 21 is an outside air temperature detecting means for detecting an outside air temperature, 211 is an outside air temperature signal, 22 is a second frequency determining means, and 221 is a second frequency signal.
【0040】以上のような構成において、以下その動作
について説明する。外気温検出手段21では、例えば、
サーミスタ等外気温センサによって外気温を検出し、外
気温信号211を第2周波数決定手段22に出力する。The operation of the above arrangement will be described below. In the outside air temperature detecting means 21, for example,
An outside temperature sensor such as a thermistor detects the outside temperature and outputs an outside temperature signal 211 to the second frequency determining means 22.
【0041】なお、これ以外にも、外気温を検出する手
段であれば、その手段は限定されない。Besides this, the means is not limited as long as it is a means for detecting the outside air temperature.
【0042】第2周波数決定手段22では、吹出温度決
定手段14、室内温度決定手段15、吹出温度検出手段
16、室内温度検出手段17、および外気温検出手段2
1からの出力値である設定吹き出し温度信号141、設
定室内温度信号151、吹き出し温度信号161、室内
温度信号171および外気温信号211に基づいて決定
された吹き出し温度になるように空気調和機を制御する
周波数を決定し、第2周波数信号211を空気調和機1
9に出力する。In the second frequency determining means 22, the outlet temperature determining means 14, the indoor temperature determining means 15, the outlet temperature detecting means 16, the indoor temperature detecting means 17, and the outside air temperature detecting means 2 are provided.
The air conditioner is controlled so that the blowout temperature determined based on the set blowout temperature signal 141, the set indoor temperature signal 151, the blowout temperature signal 161, the indoor temperature signal 171, and the outside air temperature signal 211, which are output values from 1, is output. The frequency to be set is determined and the second frequency signal 211 is sent to the air conditioner 1
Output to 9.
【0043】次に、第2周波数決定手段22における第
2周波数信号221の決定方法について表3を用いて詳
細に説明する。Next, the method of determining the second frequency signal 221 by the second frequency determining means 22 will be described in detail with reference to Table 3.
【0044】表3において、室内温度決定手段15から
の出力値である設定室内温度信号151をTaset、
室内温度検出手段17からの出力値である室内温度信号
171をTa、外気温検出手段21からの出力値である
外気温信号211をToutとする。また、前回に出力
した周波数を記憶しておき、これを現行とする。In Table 3, the set room temperature signal 151, which is the output value from the room temperature determining means 15, is set to
The indoor temperature signal 171 that is the output value from the indoor temperature detecting means 17 is Ta, and the outside air temperature signal 211 that is the output value from the outside air temperature detecting means 21 is Tout. Also, the frequency output last time is stored, and this is made the current one.
【0045】以上のような構成において、以下その動作
について説明する。表3に示すように、周波数は、設定
室内温度(Taset)より室内温度(Ta)の方が大
幅に高い時には速く室内温度を下げるために高めの絶対
値を予め決めておく。この時、例えば部屋の負荷が高い
時等、室内温度を下げる時間を短縮するために、部屋の
負荷毎に周波数を決定したい。そのため、部屋の負荷を
推測する一手段として外気温を用い、外気温に応じて周
波数を決定する。例えば、「設定室内温度から室内温度
を引いた値が−3.5℃未満の時に、外気温が34.0
℃未満であれば110Hz、34.0℃以上36.0℃
未満の時は120Hz、36.0℃以上の時は130H
z、また、設定室内温度から室内温度を引いた値が−
3.5℃以上−3.0℃未満の時に、外気温が34.0
℃未満であれば70Hz、34.0℃以上36.0℃未
満の時は80Hz、36.0℃以上の時は90Hz、ま
た、設定室内温度から室内温度を引いた値が−3.0℃
以上−2.0℃未満の時に、外気温が34.0℃未満で
あれば30Hz、34.0℃以上36.0℃未満の時は
40Hz、36.0℃以上の時は50Hzとする」、の
ように設定室内温度と室内温度の差と外気温から周波数
を決定する。設定室内温度と室内温度の差が2.0℃未
満の時は実施例1で記した周波数決定手段18と同様に
決定する。The operation of the above arrangement will be described below. As shown in Table 3, a high absolute value is predetermined for the frequency in order to lower the room temperature faster when the room temperature (Ta) is significantly higher than the set room temperature (Taset). At this time, for example, when the load on the room is high, it is desired to determine the frequency for each load on the room in order to shorten the time for lowering the room temperature. Therefore, the outside air temperature is used as one means for estimating the load on the room, and the frequency is determined according to the outside air temperature. For example, “when the value obtained by subtracting the indoor temperature from the set indoor temperature is less than −3.5 ° C., the outside air temperature is 34.0.
If less than ℃ 110Hz, 34.0 ℃ or more 36.0 ℃
120Hz when less than, 130H when above 36.0 ℃
z, or the value obtained by subtracting the room temperature from the set room temperature is-
When the temperature is 3.5 ° C or higher and lower than -3.0 ° C, the outside air temperature is 34.0.
If the temperature is lower than 70 ° C, it is 70Hz, if it is 34.0 ° C or higher and lower than 36.0 ° C, it is 80Hz, and if it is 36.0 ° C or higher, it is 90Hz.
If the outside temperature is less than −4.0 ° C. and the outside temperature is less than 34.0 ° C., the frequency is 30 Hz; , The frequency is determined from the difference between the set room temperature and the room temperature and the outside air temperature. When the difference between the set room temperature and the room temperature is less than 2.0 ° C., the frequency is determined in the same manner as the frequency determining means 18 described in the first embodiment.
【0046】[0046]
【表3】 [Table 3]
【0047】なお、上記実施例についての分類の個数
や、数値に関しては、これ以上に分類する等、その対象
に対する個数は限定されない。It should be noted that the number of classifications and numerical values in the above-mentioned embodiment are not limited to the number of objects, such as further classification.
【0048】以上のように、上記第2の実施例によれ
ば、冷房運転時、室内温度の高い時には外気温に応じた
周波数を自動的に制御することができる。従って、室内
温度の高い立ち下がり時等の不快感を緩和しながら、使
用者に当たる風速の増加に対応した最適な吹き出し温度
による冷涼感を与えるとともに、風量増加と吹き出し温
度上昇による省エネ性の向上を図ることができる。As described above, according to the second embodiment, the frequency according to the outside air temperature can be automatically controlled during the cooling operation and when the indoor temperature is high. Therefore, while alleviating the discomfort when the indoor temperature is high and falling, the cool air feeling is given by the optimum blowing temperature corresponding to the increase in the wind speed hitting the user, and the energy saving performance is improved by increasing the air volume and raising the blowing temperature. Can be planned.
【0049】[0049]
【発明の効果】本発明は、上記説明から明らかなよう
に、冷房運転時使用者の快適感を考慮しつつ、気流が人
に当たるように風向を、また、所定範囲内で風量を制御
するとともに、この風量に基づいた吹き出し温度、すな
わち、低吹き出し温度に伴う快適感の損失を補うために
高めの吹き出し温度を決定し、この決定された吹き出し
温度や室内温度等に基づいて圧縮機の周波数を自動的に
制御することができる。従って、使用者に当たる風速の
増加に対応した最適な吹き出し温度による冷涼感を与
え、快適性を維持するとともに、風量増加と吹き出し温
度上昇による省エネ性の向上を図ることができる。As is apparent from the above description, the present invention controls the wind direction so that the air flow hits a person and the air volume within a predetermined range while considering the comfort of the user during cooling operation. , The blowing temperature based on this air volume, that is, a higher blowing temperature is determined to compensate for the loss of comfort associated with the low blowing temperature, and the frequency of the compressor is determined based on the determined blowing temperature, room temperature, etc. It can be controlled automatically. Therefore, it is possible to provide the user with a cool feeling by the optimum blowing temperature corresponding to the increase in the wind speed hitting the user, maintain the comfort, and improve the energy saving performance by increasing the air volume and raising the blowing temperature.
【0050】また、本発明は、冷房運転時、室内温度の
高い時には部屋の負荷に応じて周波数の制御を行い立ち
下がり時間を短縮する、すなわち、室内温度の高い時に
は外気温に応じた周波数を、またそれ以外の時は、低吹
き出し温度に伴う快適感の損失を補うために高めの吹き
出し温度を決定し、この決定された吹き出し温度や室内
温度等に基づいて圧縮機の周波数を自動的に制御するこ
とにより、室内温度の高い立ち下がり時等の不快感を緩
和しながら、使用者に当たる風速の増加に対応した最適
な吹き出し温度による冷涼感を与えるとともに、風量増
加と吹き出し温度上昇による省エネ性の向上を図ること
ができる。Further, in the present invention, during cooling operation, when the room temperature is high, the frequency is controlled according to the load of the room to shorten the fall time, that is, when the room temperature is high, the frequency according to the outside air temperature is controlled. At other times, a higher blowout temperature is determined to compensate for the loss of comfort associated with a low blowout temperature, and the compressor frequency is automatically determined based on the determined blowout temperature and room temperature. By controlling the temperature, the user feels uncomfortable at the time of a fall when the room temperature is high, while at the same time providing a cool sensation with an optimal blowing temperature corresponding to the increase in wind speed hitting the user, and energy saving by increasing the air volume and raising the blowing temperature. Can be improved.
【図1】本発明の第1の実施例における空気調和機の制
御装置を示す概略ブロック図FIG. 1 is a schematic block diagram showing a control device for an air conditioner according to a first embodiment of the present invention.
【図2】風量と吹き出し温度による快適領域の特性図[Fig. 2] Characteristic diagram of the comfortable area according to the air volume and the blowing temperature
【図3】本発明の第2の実施例における空気調和機の制
御装置を示す概略ブロック図FIG. 3 is a schematic block diagram showing a control device for an air conditioner according to a second embodiment of the present invention.
11 運転モード記憶手段 12 風向決定手段 13 風量決定手段 14 吹出温度決定手段 15 室内温度決定手段 16 吹出温度検出手段 17 室内温度検出手段 18 周波数決定手段 19 空気調和機 21 外気温検出手段 22 第2周波数決定手段 11 Operating Mode Storage Means 12 Wind Direction Determining Means 13 Air Volume Determining Means 14 Outlet Temperature Determining Means 15 Indoor Temperature Determining Means 16 Outlet Temperature Detecting Means 17 Indoor Temperature Detecting Means 18 Frequency Determining Means 19 Air Conditioner 21 Outside Air Temperature Means 22 Second Frequency Means of decision
Claims (2)
記憶する運転モード記憶手段と、前記運転モード記憶手
段からの出力値が冷房運転時、気流が人に当たるように
風向を決定する風向決定手段と、風量を所定範囲内で決
定する風量決定手段と、前記風量決定手段からの出力値
である風量に基づいて吹き出し温度を決定する吹出温度
決定手段と、室内の設定温度を決定する室内温度決定手
段と、空気調和機が制御する吹き出し温度を検出する吹
出温度検出手段と、室内の温度を検出する室内温度検出
手段と、前記吹出温度決定手段、室内温度決定手段、吹
出温度検出手段、および室内温度検出手段からの出力値
である設定吹き出し温度、設定室内温度、吹き出し温
度、および室内温度に基づいて決定された吹き出し温度
になるよう圧縮機の周波数を決定する周波数決定手段と
を備えることを特徴とした空気調和機の制御装置。1. An operation mode storage means for storing operation modes such as a cooling operation and a heating operation, and an air flow direction determining means for determining an air flow direction such that an output value from the operation mode storage means causes an air current to hit a person during the cooling operation. An air volume determining means for determining an air volume within a predetermined range, an outlet temperature determining means for determining an outlet temperature based on the air volume which is an output value from the air volume determining means, and an indoor temperature determining for determining a set temperature in the room. Means, an outlet temperature detecting means for detecting an outlet temperature controlled by the air conditioner, an indoor temperature detecting means for detecting an indoor temperature, the outlet temperature determining means, an indoor temperature determining means, an outlet temperature detecting means, and an indoor portion. The blowout temperature of the compressor is adjusted so that the blowout temperature determined based on the set blowout temperature, the set room temperature, the blowout temperature, and the room temperature, which are output values from the temperature detecting means. Control device for an air conditioner characterized by comprising a frequency determining means for determining a wavenumber.
温度決定手段、室内温度決定手段、吹出温度検出手段、
室内温度検出手段、および外気温検出手段からの出力値
である設定吹き出し温度、設定室内温度、吹き出し温
度、室内温度、および外気温に基づいて決定された吹き
出し温度になるよう圧縮機の周波数を決定する第2周波
数決定手段とを備えることを特徴とした請求項1記載の
空気調和機の制御装置。2. An outside air temperature detecting means for detecting an outside air temperature, an outlet temperature determining means, an indoor temperature determining means, an outlet temperature detecting means,
The frequency of the compressor is determined so that the set outlet temperature, the set indoor temperature, the outlet temperature, the room temperature, and the outlet temperature, which are output values from the indoor temperature detecting means and the outside air temperature detecting means, become the outlet temperature determined based on the outlet temperature. The control device for an air conditioner according to claim 1, further comprising:
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP32765294A JP3327021B2 (en) | 1994-12-28 | 1994-12-28 | Control device for air conditioner |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP32765294A JP3327021B2 (en) | 1994-12-28 | 1994-12-28 | Control device for air conditioner |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH08178400A true JPH08178400A (en) | 1996-07-12 |
| JP3327021B2 JP3327021B2 (en) | 2002-09-24 |
Family
ID=18201457
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP32765294A Expired - Fee Related JP3327021B2 (en) | 1994-12-28 | 1994-12-28 | Control device for air conditioner |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3327021B2 (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2015173896A1 (en) * | 2014-05-13 | 2015-11-19 | 三菱電機株式会社 | Air conditioning system |
| WO2017175406A1 (en) | 2016-04-08 | 2017-10-12 | 三菱電機株式会社 | Air-conditioner blowout temperature estimation device and program |
-
1994
- 1994-12-28 JP JP32765294A patent/JP3327021B2/en not_active Expired - Fee Related
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2015173896A1 (en) * | 2014-05-13 | 2015-11-19 | 三菱電機株式会社 | Air conditioning system |
| GB2540906A (en) * | 2014-05-13 | 2017-02-01 | Mitsubishi Electric Corp | Air conditioning system |
| JPWO2015173896A1 (en) * | 2014-05-13 | 2017-04-20 | 三菱電機株式会社 | Air conditioning system |
| US10317120B2 (en) | 2014-05-13 | 2019-06-11 | Mitsubishi Electric Corporation | Air conditioning system with indoor and ventilation circuits |
| GB2540906B (en) * | 2014-05-13 | 2020-03-04 | Mitsubishi Electric Corp | Air conditioning system |
| WO2017175406A1 (en) | 2016-04-08 | 2017-10-12 | 三菱電機株式会社 | Air-conditioner blowout temperature estimation device and program |
| CN108885022A (en) * | 2016-04-08 | 2018-11-23 | 三菱电机株式会社 | Air-conditioning blows out temperature estimation rneans and program |
| US10746427B2 (en) | 2016-04-08 | 2020-08-18 | Mitsubishi Electric Corporation | Air conditioner blowing temperature estimation apparatus and computer-readable recording medium |
Also Published As
| Publication number | Publication date |
|---|---|
| JP3327021B2 (en) | 2002-09-24 |
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